期刊文献+

基于SMP2的网络化反导防御仿真系统设计与实现 被引量:2

Design and Implementation of Networked Anti-missile Defense Simulation System Based on SMP2
下载PDF
导出
摘要 网络化反导防御系统的作战特点,对其仿真系统的模型框架及建模规范提出了新的需求。引入联合作战指挥中心JOCC与公共作战图像COP模型,设计了其体系结构和模型概念框架。基于仿真模型可移植性标准(SMP2)对仿真系统进行设计与实现,讨论了模型设计、开发、装配集成与想定编辑以及仿真实验与数据记录等关键功能的实现。最后通过实例证明了模型框架的有效性及基于SMP2开发网络化作战系统的可行性和优越性。 According to the networking characteristic of anti-missile defense system, new requirements to model framework and modeling criterion of the simulation system were put forward. Two models-Joint Operations Command Center (JOCC) and Common Operation Pictures (COP) were proposed, the architecture and the conceptual model of the system was designed. Based on the Simulation Model Portability Standard (SMP2), the design and implementation of some key functions were discussed, including the model design, model development, model assembly and scenario edit, simulation experiment and data recording. An example proves the validity of the simulation model framework and the feasibility of developing the networked system based on SMP2.
出处 《系统仿真学报》 CAS CSCD 北大核心 2009年第21期6940-6944,共5页 Journal of System Simulation
基金 国家自然科学基金(60974073)
关键词 网络化反导防御系统 导弹攻防对抗仿真 仿真模型可移植性标准 统一建模语言 missile countermine simulation networked anti-missile defense system Simulation Model Portability Standard (SMP) Unified Modeling Language (UML)
  • 引文网络
  • 相关文献

参考文献6

二级参考文献24

共引文献46

同被引文献22

  • 1Garro A, Russo W. EasyABMS: a domain-expert oriented methodology for Ag(nt-based modeling and simulation[J]. Simulation Mod elling Practice and Theory ,2010,18(10) : 1453 - 1467.
  • 2Jorge G S, Carlos F, Javier A. Model driven development and simulations with the INGENIAS Agent framework[J]. Simulation Modelling Practice and Theory ,2010,18(10) :1468 - 1482.
  • 3Sansores C, Pav6n J. Agent-based simulation replication: a model driven architecture approach[C]// Proc. of the 4th Mescican International Conference on Artificial Intelligence, 20051 244 - 253.
  • 4Fuentes-Ferndndez R, Galdn J M, Hassan S, et al. Application of model driven techniques for Agent based simulation [C] // Proc. o f the 8th International Conference on Practical Applications of Agents and Multiagent Systems, 2010 : 81 - 90.
  • 5Vladimir G, Oleg K, Victor K, et al. Model-driven engineering of multi-Agent systems[C]// Proc. of the IEEE/WIC/ACM Inter- national Conference on Intelligent Agent Technology, 2008: 83 - 86.
  • 6Brazier F, Jonker C M, Treur J. Principles of component-baseddesign of intelligent Agents[J]. Data and Knowledge Engineer ing, 2002,41(1):1-27.
  • 7Wan K Y, Alagar V. A component-based architecture for multi- Agent systems[C]// Proc. of the IEEE/WIC/ACM International Conference on Intelligent Agent Technology , 2006..452 -459.
  • 8Himmelspach J, R6hl M, Uhrmacher A M. Component-based models and simulation experiments for multi-agent systems in James II[C]// Proc. of the 7th International Conference on Autonomous Agents and Multiagent Systems ,2008:83 - 92.
  • 9Lian J X, Shatz S, He X D. Component based multi-Agent system modeling and analysis: a case study[C]// Proc. of the International Conference on Software Engineering Research and Practice, 2007 : 183 - 189.
  • 10Poslad S, Charlton P. Standardizing Agent interoperability: the FIPA approaeh[C]// Proc. of the 9th ECCAI-ACAI/ EASSS, AEMAS and HoloMAS ,2001:98 - 117.

引证文献2

二级引证文献7

;
使用帮助 返回顶部